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陈昕
芒果体育官方网站

陈昕

博士后
  • 办公地点: 冶金楼913B
  • 办公电话: 010-62332525
  • 电子邮件: chenx@ustb.edu.cn
  • 本科课程:
  • 研究生课程:
  • 科研方向: 1. 卟啉酞菁类功能分子材料的光电性质的模拟研究
    2.单原子催化剂的机理及动力学理论研究
  • 社会职务:
简历

2005.9 - 2009.7     北京大学物理学院 理学学士
2009.8 - 2011.8     佐治亚理工学院(美国) 地球与大气科学学院理学硕士
2011.8 - 2014.5     佐治亚理工学院(美国)计算学院
2016.9 - 2020.1     芒果体育官方网站 理学博士(化学)
2020.6 - 至今         芒果体育 芒果体育官方网站 团队博士后

科研业绩

获得奖励/专利

招生计划

代表性论文论著

 1)Chen X, Chen Y, Bai M*, Wang C, Qi D*, Liu Q*, Xu M, Jiang J. Distribution of the unpaired electron in neutral bis (phthalocyaninato) yttrium double-deckers: An experimental and theoretical combinative investigation. Journal of Porphyrins and Phthalocyanines. 2018, 22(01n03): 165-172.
2)Chen X, Wang C, Chen Y, Qi D*, Jiang J*. Vibrational spectra of alkylamino substituted phthalocyanine compounds: Density functional theory calculations. Journal of Porphyrins and Phthalocyanines, 2018, 22(09n10):771-776.
3)Wu K, Chen X#, Liu S, Pan Y, Cheong WC, Zhu W, Cao X, Shen R, Chen W, Luo J, Yan W, Zheng L, Chen Z*, Wang D, Peng Q, Chen C*. Porphyrin-like Fe-N4 sites with sulfur adjustment on hierarchical porous carbon for different rate-determining steps in oxygen reduction reaction. Nano Research, 2018, 11(12): 6260-6269.
4)Chen X, Wang C, Qi D*, Jiang J*. Raman spectra of rare earth double-decker complexes with porphyrinato and 2, 3-naphthalocyaninato ligands. Journal of Porphyrins and Phthalocyanines, 2019, 23(03):260-266.
5)  Qi D, Chen X#, Liu W, Liu C, Liu W, Wang K*, Jiang J*. A Ni/Fe-based heterometallic phthalocyanine conjugated polymer for the oxygen evolution reaction. Inorganic Chemistry Frontiers, 2020,7: 642-646.
6)Chen X, Qi D, Liu C, Wang H*, Xie Z, Chen T W, Chen S, Tseng T W, Jiang J*. Conjugation extended sandwich phthalocyaninato compounds. RSC Advances, 2020, 10: 317-322.
7) Pan Y, Lin R, Chen Y, Liu S, Zhu W, Cao X, Chen W, Wu K, Cheong WC, Wang Y, Zheng L, Luo J, Lin Y, Liu Y Q, Liu C, Li J, Lu Q, Chen X, Wang D, Peng Q, Chen C*, Li Y. Design of single-atom Co–N5 catalytic site: a robust electrocatalyst for CO2 reduction with nearly 100% CO selectivity and remarkable stability. Journal of the American Chemical Society, 2018, 140(12):4218-4121.
8)Pan Y, Liu S, Sun K, Chen X, Wang B, Wu K, Cao X, Cheong WC, Shen R, Han A, Chen Z, Zheng L, Luo J, Lin Y, Liu Y, Wang D, Peng Q, Zhang Q*, Chen C*, Li Y. A Bimetallic Zn/Fe Polyphthalocyanine‐Derived Single‐Atom Fe‐N4 Catalytic Site: A Superior Trifunctional Catalyst for Overall Water Splitting and Zn–Air Batteries. Angewandte Chemie International Edition, 2018, 57(28): 8614-8618.
9)Wang C, Chen X, Pan H, Qi D*, Jiang J*. Towards developing efficient aminopyridine-based electrochemical catalysts for CO2 reduction. A density functional theory study. Journal of Catalysis, 2019, 373: 75-80.

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